"
COPYRIGHT (c) 2004 by eXept Software AG
All Rights Reserved
This software is furnished under a license and may be used
only in accordance with the terms of that license and with the
inclusion of the above copyright notice. This software may not
be provided or otherwise made available to, or used by, any
other person. No title to or ownership of the software is
hereby transferred.
"
"{ Package: 'stx:libbasic' }"
ExternalFunction subclass:#ExternalLibraryFunction
instanceVariableNames:'flags moduleName returnType argumentTypes owningClass'
classVariableNames:'DLLPATH FLAG_VIRTUAL FLAG_NONVIRTUAL FLAG_ASYNC
FLAG_UNLIMITEDSTACK FLAG_RETVAL_IS_CONST CALLTYPE_MASK
CALLTYPE_API CALLTYPE_C CALLTYPE_OLE CALLTYPE_V8 CALLTYPE_V9
CALLTYPE_UNIX64'
poolDictionaries:''
category:'System-Support'
!
!ExternalLibraryFunction primitiveDefinitions!
%{
#ifdef HAVE_FFI
# include <ffi.h>
# define MAX_ARGS 128
extern ffi_type *__get_ffi_type_sint();
extern ffi_type *__get_ffi_type_sint8();
extern ffi_type *__get_ffi_type_sint16();
extern ffi_type *__get_ffi_type_sint32();
extern ffi_type *__get_ffi_type_sint64();
extern ffi_type *__get_ffi_type_uint();
extern ffi_type *__get_ffi_type_uint8();
extern ffi_type *__get_ffi_type_uint16();
extern ffi_type *__get_ffi_type_uint32();
extern ffi_type *__get_ffi_type_uint64();
extern ffi_type *__get_ffi_type_float();
extern ffi_type *__get_ffi_type_double();
extern ffi_type *__get_ffi_type_void();
extern ffi_type *__get_ffi_type_pointer();
#endif
%}
! !
!ExternalLibraryFunction class methodsFor:'documentation'!
copyright
"
COPYRIGHT (c) 2004 by eXept Software AG
All Rights Reserved
This software is furnished under a license and may be used
only in accordance with the terms of that license and with the
inclusion of the above copyright notice. This software may not
be provided or otherwise made available to, or used by, any
other person. No title to or ownership of the software is
hereby transferred.
"
!
documentation
"
instances of me are used to interface to external library functions (as found in a dll/shared object).
When a special external-call pragma such as:
<api: bool MessageBeep(uint)>
is encountered by the parser in a method, the compiler generates a call via
<correspondingExternalLibraryFunctionObject> invokeWithArguments: argumentArray.
In the invoke method, the library is checked to be loaded (and loaded if not already),
the arguments are converted to C and pushed onto the C-stack, the function is called,
and finally, the return value is converted back from C to a smalltalk object.
"
!
example
"
[exBegin]
|f|
f := ExternalLibraryFunction new.
f name:'MessageBeep'
module:'user32.dll'
callType:#WINAPI
returnType:#boolean
argumentTypes:#(uint).
f invokeWith:1.
[exEnd]
"
! !
!ExternalLibraryFunction class methodsFor:'instance creation'!
name:functionName module:moduleName returnType:returnType argumentTypes:argTypes
^ self new
name:functionName module:moduleName
returnType:returnType argumentTypes:argTypes
"Created: / 01-08-2006 / 15:19:08 / cg"
! !
!ExternalLibraryFunction class methodsFor:'class initialization'!
dllPath
^ DLLPATH ? #( '.' )
!
dllPath:aCollectionOfDirectoryPathNames
DLLPATH := aCollectionOfDirectoryPathNames
!
initialize
"using inline access to corresponding c--defines to avoid duplicate places of knowledge"
FLAG_VIRTUAL := %{ __MKSMALLINT(__EXTL_FLAG_VIRTUAL) %}. "/ a virtual c++ call
FLAG_NONVIRTUAL := %{ __MKSMALLINT(__EXTL_FLAG_NONVIRTUAL) %}. "/ a non-virtual c++ call
FLAG_UNLIMITEDSTACK := %{ __MKSMALLINT(__EXTL_FLAG_UNLIMITEDSTACK) %}. "/ unlimitedstack under unix
FLAG_ASYNC := %{ __MKSMALLINT(__EXTL_FLAG_ASYNC) %}. "/ async under win32
FLAG_RETVAL_IS_CONST := %{ __MKSMALLINT(__EXTL_FLAG_RETVAL_IS_CONST) %}."/ return value is not to be registered for finalization
CALLTYPE_API := %{ __MKSMALLINT(__EXTL_CALLTYPE_API) %}. "/ WINAPI-call (win32 only)
CALLTYPE_C := %{ __MKSMALLINT(__EXTL_CALLTYPE_C) %}. "/ regular C-call (the default)
CALLTYPE_V8 := %{ __MKSMALLINT(__EXTL_CALLTYPE_V8) %}. "/ v8 call (sparc only)
CALLTYPE_V9 := %{ __MKSMALLINT(__EXTL_CALLTYPE_V9) %}. "/ v9 call (sparc only)
CALLTYPE_UNIX64 := %{ __MKSMALLINT(__EXTL_CALLTYPE_UNIX64) %}. "/ unix64 call (alpha only)
CALLTYPE_MASK := %{ __MKSMALLINT(__EXTL_CALLTYPE_MASK) %}.
"
self initialize
"
"Modified: / 03-10-2006 / 21:27:47 / cg"
! !
!ExternalLibraryFunction class methodsFor:'constants'!
callTypeAPI
^ CALLTYPE_API
"Modified: / 01-08-2006 / 13:44:41 / cg"
!
callTypeC
^ CALLTYPE_C
"Modified: / 01-08-2006 / 13:44:49 / cg"
!
callTypeCDecl
^ CALLTYPE_C
"Modified: / 01-08-2006 / 13:44:52 / cg"
!
callTypeOLE
^ CALLTYPE_OLE
"Modified: / 01-08-2006 / 13:44:57 / cg"
! !
!ExternalLibraryFunction methodsFor:'accessing'!
argumentTypes
^ argumentTypes
!
beAsync
"let this execute in a separate thread, in par with the other execution thread(s).
Ignored under unix/linux (until those support multiple threads too)."
flags := (flags ? 0) bitOr: FLAG_ASYNC.
"Created: / 01-08-2006 / 13:42:38 / cg"
!
beCallTypeAPI
flags := (flags ? 0) bitOr: CALLTYPE_API.
"Created: / 01-08-2006 / 15:12:40 / cg"
!
beCallTypeC
flags := (flags ? 0) bitOr: CALLTYPE_C.
"Created: / 01-08-2006 / 15:12:40 / cg"
!
beCallTypeOLE
flags := (flags ? 0) bitOr: FLAG_VIRTUAL.
"Created: / 01-08-2006 / 15:12:40 / cg"
!
beCallTypeUNIX64
flags := (flags ? 0) bitOr: CALLTYPE_UNIX64.
"Created: / 01-08-2006 / 15:13:38 / cg"
!
beCallTypeV8
flags := (flags ? 0) bitOr: CALLTYPE_V8.
"Created: / 01-08-2006 / 15:13:28 / cg"
!
beCallTypeV9
flags := (flags ? 0) bitOr: CALLTYPE_V9.
"Created: / 01-08-2006 / 15:13:31 / cg"
!
beCallTypeWINAPI
self beCallTypeAPI
"Modified: / 01-08-2006 / 15:14:02 / cg"
!
beConstReturnValue
"specify that a pointer return value is not to be finalized
(i.e. points to static data or data which is freed by c)"
flags := (flags ? 0) bitOr: FLAG_RETVAL_IS_CONST.
"Created: / 01-08-2006 / 13:56:48 / cg"
!
beNonVirtualCPP
"specify this as a non-virtual c++-function"
flags := (flags ? 0) bitOr: FLAG_NONVIRTUAL.
"Created: / 01-08-2006 / 13:56:44 / cg"
!
beUnlimitedStack
"let this execute on the c-stack (as opposed to the thread-stack)
for unlimited auto-sized-stack under unix/linux.
Ignored under windows."
flags := (flags ? 0) bitOr: FLAG_UNLIMITEDSTACK.
"Created: / 01-08-2006 / 13:41:54 / cg"
!
beVirtualCPP
"specify this as a virtual c++-function"
flags := (flags ? 0) bitOr: FLAG_VIRTUAL.
"Created: / 01-08-2006 / 13:56:48 / cg"
!
callTypeNumber
^ (flags ? 0) bitAnd: CALLTYPE_MASK.
"Created: / 01-08-2006 / 15:12:10 / cg"
!
isAsync
"is this executed in a separate thread, in par with the other execution thread(s) ?"
^ (flags ? 0) bitTest: FLAG_ASYNC.
"Created: / 01-08-2006 / 13:46:53 / cg"
!
isCPPFunction
"is this a virtual or non-virtual c++-function ?"
^ (flags ? 0) bitTest: (FLAG_VIRTUAL bitOr: FLAG_NONVIRTUAL).
"Created: / 01-08-2006 / 13:56:54 / cg"
!
isCallTypeAPI
^ ((flags ? 0) bitAnd: CALLTYPE_MASK) == CALLTYPE_API.
"Created: / 01-08-2006 / 15:21:16 / cg"
!
isCallTypeC
^ ((flags ? 0) bitAnd: CALLTYPE_MASK) == CALLTYPE_C.
"Created: / 01-08-2006 / 15:21:23 / cg"
!
isCallTypeOLE
^ ((flags ? 0) bitTest: FLAG_VIRTUAL).
"Created: / 01-08-2006 / 15:21:23 / cg"
!
isConstReturnValue
"is the pointer return value not to be finalized
(i.e. points to static data or data which is freed by c)"
^ (flags ? 0) bitTest: FLAG_RETVAL_IS_CONST.
"Created: / 01-08-2006 / 13:56:48 / cg"
!
isNonVirtualCPP
"is this a non-virtual c++-function ?"
^ (flags ? 0) bitTest: FLAG_NONVIRTUAL.
"Created: / 01-08-2006 / 13:56:51 / cg"
!
isUnlimitedStack
"will this execute on the c-stack (as opposed to the thread-stack)
for unlimited auto-sized-stack under unix/linux.
Ignored under windows."
^ (flags ? 0) bitTest: FLAG_UNLIMITEDSTACK.
"Created: / 01-08-2006 / 14:17:07 / cg"
!
isVirtualCPP
"is this a virtual c++-function ?"
^ (flags ? 0) bitTest: FLAG_VIRTUAL.
"Created: / 01-08-2006 / 13:56:54 / cg"
!
returnType
^ returnType
!
vtableIndex
name isNumber ifFalse:[^ nil].
^ name.
! !
!ExternalLibraryFunction methodsFor:'invoking'!
invoke
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeFFIWithArguments:nil
!
invokeCPPVirtualOn:anInstance
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeCPPVirtualFFIOn:anInstance withArguments:nil
!
invokeCPPVirtualOn:instance with:arg
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeCPPVirtualFFIOn:instance withArguments:(Array with:arg)
!
invokeCPPVirtualOn:instance with:arg1 with:arg2
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeCPPVirtualFFIOn:instance withArguments:(Array with:arg1 with:arg2)
!
invokeCPPVirtualOn:instance with:arg1 with:arg2 with:arg3
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeCPPVirtualFFIOn:instance withArguments:(Array with:arg1 with:arg2 with:arg3)
!
invokeCPPVirtualOn:instance with:arg1 with:arg2 with:arg3 with:arg4
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeCPPVirtualFFIOn:instance withArguments:(Array with:arg1 with:arg2 with:arg3 with:arg4)
!
invokeCPPVirtualOn:instance withArguments:args
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeCPPVirtualFFIOn:instance withArguments:args
!
invokeWith:arg
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeFFIWithArguments:(Array with:arg)
!
invokeWith:arg1 with:arg2
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeFFIWithArguments:(Array with:arg1 with:arg2)
!
invokeWith:arg1 with:arg2 with:arg3
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeFFIWithArguments:(Array with:arg1 with:arg2 with:arg3)
!
invokeWith:arg1 with:arg2 with:arg3 with:arg4
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeFFIWithArguments:(Array with:arg1 with:arg2 with:arg3 with:arg4)
!
invokeWithArguments:argArray
self hasCode ifFalse:[
self prepareInvoke.
].
^ self invokeFFIwithArguments:argArray forCPPInstance:nil
"Modified: / 01-08-2006 / 16:04:08 / cg"
! !
!ExternalLibraryFunction methodsFor:'printing'!
printOn:aStream
aStream nextPutAll:'<'.
self isCallTypeAPI ifTrue:[
'API:' printOn:aStream.
] ifFalse:[
'C:' printOn:aStream.
].
aStream nextPutAll:' '.
name printOn:aStream.
moduleName notNil ifTrue:[
aStream nextPutAll:' module:'.
moduleName printOn:aStream.
].
aStream nextPutAll:'>'.
"Modified: / 01-08-2006 / 15:21:42 / cg"
! !
!ExternalLibraryFunction methodsFor:'private'!
adjustTypes
argumentTypes notNil ifTrue:[
argumentTypes := argumentTypes collect:[:argType | self ffiTypeSymbolForType:argType].
].
returnType := self ffiTypeSymbolForType:returnType.
!
linkToModule
"link this function to the external module.
I.e. retrieve the module handle and the code pointer."
|handle moduleNameUsed functionName|
name isNumber ifTrue:[
self isCPPFunction ifTrue:[
"/ no need to load a dll.
^ self
]
].
(moduleNameUsed := moduleName) isNil ifTrue:[
owningClass isNil ifTrue:[
self error:'Missing moduleName'.
].
moduleNameUsed := owningClass theNonMetaclass libraryName asSymbol.
].
moduleHandle isNil ifTrue:[
handle := self loadLibrary:moduleNameUsed.
handle isNil ifTrue:[
self error:'Cannot load module: ', moduleNameUsed.
].
moduleHandle := handle.
].
name isNumber ifFalse:[
functionName := name.
(moduleHandle getFunctionAddress:functionName into:self) isNil ifTrue:[
functionName := ('_', functionName) asSymbol.
(moduleHandle getFunctionAddress:functionName into:self) isNil ifTrue:[
moduleHandle := nil.
self error:'Missing function: ', name, ' in module: ', moduleNameUsed.
].
].
].
"Modified: / 01-08-2006 / 16:24:14 / cg"
!
loadLibrary:dllName
|handle filename|
filename := dllName asFilename.
filename exists ifTrue:[
handle := ObjectFileLoader
loadDynamicObject:(filename pathName).
handle notNil ifTrue:[^ handle ].
].
self class dllPath do:[:eachDirectory |
handle := ObjectFileLoader
loadDynamicObject:(eachDirectory asFilename construct:dllName) pathName.
handle notNil ifTrue:[^ handle ].
].
^ nil
!
prepareInvoke
(moduleHandle isNil or:[self hasCode not]) ifTrue:[
self linkToModule.
self adjustTypes.
].
! !
!ExternalLibraryFunction methodsFor:'private-accessing'!
ffiTypeSymbolForType:aType
"map type to one of the ffi-supported ones:
sint8, sint16, sint32, sint64
uint8, uint16, uint32, uint64
bool void handle
"
|t|
aType == #sint8 ifTrue:[^ aType ].
aType == #sint16 ifTrue:[^ aType ].
aType == #sint32 ifTrue:[^ aType ].
aType == #sint64 ifTrue:[^ aType ].
aType == #uint8 ifTrue:[^ aType ].
aType == #uint16 ifTrue:[^ aType ].
aType == #uint32 ifTrue:[^ aType ].
aType == #uint64 ifTrue:[^ aType ].
aType == #double ifTrue:[^ aType ].
aType == #float ifTrue:[^ aType ].
aType == #char ifTrue:[^ aType ].
aType == #void ifTrue:[^ aType ].
aType == #bool ifTrue:[^ aType ].
aType == #pointer ifTrue:[^ aType ].
aType == #int8 ifTrue:[^ #sint8 ].
aType == #int16 ifTrue:[^ #sint16 ].
aType == #int32 ifTrue:[^ #sint32 ].
aType == #int64 ifTrue:[^ #sint64 ].
aType == #voidPointer ifTrue:[^ #pointer ].
aType == #short ifTrue:[^ #sint16 ].
aType == #long ifTrue:[^ #long ].
aType == #int ifTrue:[^ #int ].
aType == #ushort ifTrue:[^ #uint16 ].
aType == #unsignedShort ifTrue:[^ #uint16 ].
aType == #ulong ifTrue:[^ #ulong ].
aType == #unsignedLong ifTrue:[^ #ulong ].
aType == #uchar ifTrue:[^ #uint8 ].
aType == #unsignedChar ifTrue:[^ #uint8 ].
aType == #byte ifTrue:[^ #uint8 ].
aType == #dword ifTrue:[^ #uint32 ].
aType == #sdword ifTrue:[^ #sint32 ].
aType == #word ifTrue:[^ #uint16 ].
aType == #sword ifTrue:[^ #sint16 ].
aType == #handle ifTrue:[^ #pointer ].
aType == #lpstr ifTrue:[^ #charPointer ].
aType == #hresult ifTrue:[^ #uint32 ].
aType == #boolean ifTrue:[^ #bool ].
aType == #ulongReturn ifTrue:[^ #uint32 ]. "/ TODO - care for 64bit machines
aType == #none ifTrue:[^ #void ].
aType == #struct ifTrue:[^ #pointer ].
aType == #structIn ifTrue:[^ #pointer ].
aType == #structOut ifTrue:[^ #pointer ].
(aType isString or:[aType isSymbol]) ifFalse:[
CType isNil ifTrue:[
self error:'unknown type'.
].
^ aType typeSymbol.
].
^ aType
!
name:functionNameOrVirtualIndex module:aModuleName returnType:aReturnType argumentTypes:argTypes
name := functionNameOrVirtualIndex.
functionNameOrVirtualIndex isNumber ifTrue:[
self beVirtualCPP.
].
moduleName := aModuleName.
returnType := aReturnType.
argumentTypes := argTypes.
"Created: / 01-08-2006 / 15:19:52 / cg"
"Modified: / 02-08-2006 / 17:20:13 / cg"
!
owningClass:aClass
owningClass := aClass.
"Created: / 01-08-2006 / 15:22:50 / cg"
! !
!ExternalLibraryFunction methodsFor:'private-invoking'!
invokeCPPVirtualFFIOn:instance withArguments:arguments
^ self invokeFFIwithArguments:arguments forCPPInstance:instance
"Modified: / 01-08-2006 / 13:55:30 / cg"
!
invokeFFIWithArguments:arguments
^ self invokeFFIwithArguments:arguments forCPPInstance:nil
"Modified: / 01-08-2006 / 13:55:35 / cg"
!
invokeFFIwithArguments:argumentsOrNil forCPPInstance:aCPlusPlusObjectOrNil
|argTypeSymbols returnTypeSymbol failureCode failureInfo returnValue stClass vtOffset
virtual async unlimitedStack callTypeNumber returnValueClass argValueClass|
argTypeSymbols := argumentTypes.
returnTypeSymbol := returnType.
virtual := self isVirtualCPP.
(virtual "or:[self isNonVirtualCPP]") ifTrue:[
aCPlusPlusObjectOrNil isNil ifTrue:[
"/ must have a c++ object instance
self primitiveFailed.
].
"/ and it must be a kind of ExternalStructure !!
(aCPlusPlusObjectOrNil isKindOf:ExternalStructure) ifFalse:[
self primitiveFailed.
].
virtual ifTrue:[
vtOffset := name.
(vtOffset between:0 and:10000) ifFalse:[
self primitiveFailed.
]
].
] ifFalse:[
aCPlusPlusObjectOrNil notNil ifTrue:[
"/ must NOT have a c++ object instance
self primitiveFailed.
].
].
async := self isAsync.
unlimitedStack := self isUnlimitedStack.
callTypeNumber := self callTypeNumber.
"/ Transcript show:name; show:' async:'; showCR:async.
%{ /* STACK: 100000 */
#ifdef HAVE_FFI
ffi_cif __cif;
ffi_type *__argTypesIncludingThis[MAX_ARGS+1];
ffi_type **__argTypes = __argTypesIncludingThis;
ffi_type *__returnType = NULL;
union u {
int iVal;
float fVal;
double dVal;
void *pointerVal;
};
union u __argValuesIncludingThis[MAX_ARGS+1];
union u *__argValues = __argValuesIncludingThis;
union u __returnValue;
void *__argValuePointersIncludingThis[MAX_ARGS+1];
void **__argValuePointers = __argValuePointersIncludingThis;
void *__returnValuePointer;
int __numArgs, __numArgsIncludingThis;
static int null = 0;
int i;
ffi_abi __callType = FFI_DEFAULT_ABI;
VOIDFUNC codeAddress = (VOIDFUNC)__INST(code_);
int __numArgsWanted;
if (argumentsOrNil == nil) {
__numArgs = 0;
} else if (__isArray(argumentsOrNil)) {
__numArgs = __arraySize(argumentsOrNil);
} else {
failureCode = @symbol(BadArgumentVector);
goto getOutOfHere;
}
if (argTypeSymbols == nil) {
__numArgsWanted = 0;
} else if (__isArray(argTypeSymbols)) {
__numArgsWanted = __arraySize(argTypeSymbols);
} else {
failureCode = @symbol(BadArgumentTypeVector);
goto getOutOfHere;
}
if (__numArgs != __numArgsWanted) {
failureCode = @symbol(ArgumentCountMismatch);
goto getOutOfHere;
}
if (__numArgs > MAX_ARGS) {
failureCode = @symbol(TooManyArguments);
goto getOutOfHere;
}
/*
* validate the return type
*/
__returnValuePointer = &__returnValue;
if (returnTypeSymbol == @symbol(voidPointer)) {
returnTypeSymbol = @symbol(handle);
}
if (returnTypeSymbol == @symbol(int)) {
__returnType = __get_ffi_type_sint();
} else if (returnTypeSymbol == @symbol(uint)) {
__returnType = __get_ffi_type_uint();
} else if (returnTypeSymbol == @symbol(uint8)) {
__returnType = __get_ffi_type_uint8();
} else if (returnTypeSymbol == @symbol(uint16)) {
__returnType = __get_ffi_type_uint16();
} else if (returnTypeSymbol == @symbol(uint32)) {
__returnType = __get_ffi_type_uint32();
} else if (returnTypeSymbol == @symbol(uint64)) {
__returnType = __get_ffi_type_uint64();
} else if (returnTypeSymbol == @symbol(sint)) {
__returnType = __get_ffi_type_sint();
} else if (returnTypeSymbol == @symbol(sint8)) {
__returnType = __get_ffi_type_sint8();
} else if (returnTypeSymbol == @symbol(sint16)) {
__returnType = __get_ffi_type_sint16();
} else if (returnTypeSymbol == @symbol(sint32)) {
__returnType = __get_ffi_type_sint32();
} else if (returnTypeSymbol == @symbol(sint64)) {
__returnType = __get_ffi_type_sint64();
} else if (returnTypeSymbol == @symbol(long)) {
if (sizeof(long) == 4) {
returnTypeSymbol = @symbol(sint32);
__returnType = __get_ffi_type_sint32();
} else if (sizeof(long) == 8) {
returnTypeSymbol = @symbol(sint64);
__returnType = __get_ffi_type_sint64();
} else {
failureCode = @symbol(UnknownReturnType);
goto getOutOfHere;
}
} else if (returnTypeSymbol == @symbol(ulong)) {
if (sizeof(long) == 4) {
returnTypeSymbol = @symbol(uint32);
__returnType = __get_ffi_type_uint32();
}else if (sizeof(long) == 8) {
returnTypeSymbol = @symbol(uint64);
__returnType = __get_ffi_type_uint64();
} else {
failureCode = @symbol(UnknownReturnType);
goto getOutOfHere;
}
} else if (returnTypeSymbol == @symbol(bool)) {
__returnType = __get_ffi_type_uint();
} else if (returnTypeSymbol == @symbol(float)) {
__returnType = __get_ffi_type_float();
} else if (returnTypeSymbol == @symbol(double)) {
__returnType = __get_ffi_type_double();
} else if (returnTypeSymbol == @symbol(void)) {
__returnType = __get_ffi_type_void();
__returnValuePointer = NULL;
} else if ((returnTypeSymbol == @symbol(pointer)) || (returnTypeSymbol == @symbol(handle))) {
__returnType = __get_ffi_type_pointer();
} else if (returnTypeSymbol == @symbol(charPointer)) {
__returnType = __get_ffi_type_pointer();
} else if (returnTypeSymbol == @symbol(wcharPointer)) {
__returnType = __get_ffi_type_pointer();
} else {
if (__isSymbol(returnTypeSymbol)
&& ((returnValueClass = __GLOBAL_GET(returnTypeSymbol)) != nil)) {
if (! __isBehaviorLike(returnValueClass)) {
failureCode = @symbol(NonBehaviorReturnType);
goto getOutOfHere;
}
if (! __qIsSubclassOfExternalAddress(returnValueClass)) {
failureCode = @symbol(NonExternalAddressReturnType);
goto getOutOfHere;
}
__returnType = __get_ffi_type_pointer();
returnTypeSymbol = @symbol(pointer);
} else {
failureCode = @symbol(UnknownReturnType);
goto getOutOfHere;
}
}
/*
* validate the c++ object
*/
if (aCPlusPlusObjectOrNil != nil) {
struct cPlusPlusInstance {
void **vTable;
};
struct cPlusPlusInstance *inst;
if (__isExternalAddressLike(aCPlusPlusObjectOrNil)) {
inst = (void *)(__externalAddressVal(aCPlusPlusObjectOrNil));
} else if (__isExternalBytesLike(aCPlusPlusObjectOrNil)) {
inst = (void *)(__externalBytesVal(aCPlusPlusObjectOrNil));
} else {
failureCode = @symbol(InvalidInstance);
goto getOutOfHere;
}
__argValues[0].pointerVal = inst;
__argValuePointersIncludingThis[0] = &(__argValues[0]);
__argTypes[0] = __get_ffi_type_pointer();
__argValuePointers = &__argValuePointersIncludingThis[1];
__argTypes = &__argTypesIncludingThis[1];
__argValues = &__argValuesIncludingThis[1];
__numArgsIncludingThis = __numArgs + 1;
if (virtual == true) {
if (! __isSmallInteger(vtOffset)) {
failureCode = @symbol(InvalidVTableIndex);
goto getOutOfHere;
}
codeAddress = inst->vTable[__intVal(vtOffset)];
#ifdef VERBOSE
printf("virtual codeAddress: %x\n", codeAddress);
#endif
}
} else {
__numArgsIncludingThis = __numArgs;
#ifdef VERBOSE
printf("codeAddress: %x\n", codeAddress);
#endif
}
/*
* validate all arg types and setup arg-buffers
*/
for (i=0; i<__numArgs; i++) {
ffi_type *thisType;
void *argValuePtr;
OBJ typeSymbol;
OBJ arg;
failureInfo = __mkSmallInteger(i+1); /* in case there is one */
typeSymbol = __ArrayInstPtr(argTypeSymbols)->a_element[i];
arg = __ArrayInstPtr(argumentsOrNil)->a_element[i];
if (typeSymbol == @symbol(handle)) {
typeSymbol = @symbol(pointer);
} else if (typeSymbol == @symbol(voidPointer)) {
typeSymbol = @symbol(pointer);
}
if (typeSymbol == @symbol(long)) {
if (sizeof(long) == sizeof(int)) {
typeSymbol = @symbol(sint);
} else {
if (sizeof(long) == 4) {
typeSymbol = @symbol(sint32);
} else if (sizeof(long) == 8) {
typeSymbol = @symbol(sint64);
}
}
}
if (typeSymbol == @symbol(ulong)) {
if (sizeof(unsigned long) == sizeof(unsigned int)) {
typeSymbol = @symbol(uint);
} else {
if (sizeof(long) == 4) {
typeSymbol = @symbol(uint32);
} else if (sizeof(long) == 8) {
typeSymbol = @symbol(uint64);
}
}
}
if (typeSymbol == @symbol(int)) {
thisType = __get_ffi_type_sint();
if (__isSmallInteger(arg)) {
__argValues[i].iVal = __intVal(arg);
} else {
__argValues[i].iVal = __signedLongIntVal(arg);
if (__argValues[i].iVal == 0) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
}
argValuePtr = &(__argValues[i].iVal);
} else if (typeSymbol == @symbol(uint)) {
thisType = __get_ffi_type_uint();
if (__isSmallInteger(arg)) {
__argValues[i].iVal = __intVal(arg);
} else {
__argValues[i].iVal = __unsignedLongIntVal(arg);
if (__argValues[i].iVal == 0) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
}
argValuePtr = &(__argValues[i].iVal);
} else if (typeSymbol == @symbol(uint8)) {
thisType = __get_ffi_type_uint8();
if (! __isSmallInteger(arg)) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
__argValues[i].iVal = __intVal(arg);
if (((unsigned)(__argValues[i].iVal)) > 0xFF) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].iVal);
} else if (typeSymbol == @symbol(sint8)) {
thisType = __get_ffi_type_sint8();
if (! __isSmallInteger(arg)) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
__argValues[i].iVal = __intVal(arg);
if (((__argValues[i].iVal) < -0x80) || ((__argValues[i].iVal) > 0x7F)) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].iVal);
} else if (typeSymbol == @symbol(uint16)) {
thisType = __get_ffi_type_uint16();
if (! __isSmallInteger(arg)) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
__argValues[i].iVal = __intVal(arg);
if (((unsigned)(__argValues[i].iVal)) > 0xFFFF) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].iVal);
} else if (typeSymbol == @symbol(sint16)) {
thisType = __get_ffi_type_sint16();
if (! __isSmallInteger(arg)) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
__argValues[i].iVal = __intVal(arg);
if (((__argValues[i].iVal) < -0x8000) || ((__argValues[i].iVal) > 0x7FFF)) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].iVal);
} else if ((typeSymbol == @symbol(uint32)) || (typeSymbol == @symbol(sint32))) {
thisType = __get_ffi_type_uint32();
if (__isSmallInteger(arg)) {
__argValues[i].iVal = __intVal(arg);
} else {
__argValues[i].iVal = __unsignedLongIntVal(arg);
if (__argValues[i].iVal == 0) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
}
argValuePtr = &(__argValues[i].iVal);
} else if (typeSymbol == @symbol(float)) {
thisType = __get_ffi_type_float();
if (__isSmallInteger(arg)) {
__argValues[i].fVal = (float)(__intVal(arg));
} else if (__isFloat(arg)) {
__argValues[i].fVal = (float)(__floatVal(arg));
} else if (__isShortFloat(arg)) {
__argValues[i].fVal = (float)(__shortFloatVal(arg));
} else {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].fVal);
} else if (typeSymbol == @symbol(double)) {
thisType = __get_ffi_type_double();
if (__isSmallInteger(arg)) {
__argValues[i].dVal = (double)(__intVal(arg));
} else if (__isFloat(arg)) {
__argValues[i].dVal = (double)(__floatVal(arg));
} else if (__isShortFloat(arg)) {
__argValues[i].dVal = (double)(__shortFloatVal(arg));
} else {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].dVal);
} else if (typeSymbol == @symbol(void)) {
thisType = __get_ffi_type_void();
argValuePtr = &null;
} else if (typeSymbol == @symbol(charPointer)) {
thisType = __get_ffi_type_pointer();
if (__isString(arg) || __isSymbol(arg)) {
if (async == true) goto badArgForAsyncCall;
__argValues[i].pointerVal = (void *)(__stringVal(arg));
} else if (__isBytes(arg)) {
if (async == true) goto badArgForAsyncCall;
__argValues[i].pointerVal = (void *)(__byteArrayVal(arg));
} else if (__isExternalAddressLike(arg)) {
__argValues[i].pointerVal = (void *)(__externalAddressVal(arg));
} else if (__isExternalBytesLike(arg)) {
__argValues[i].pointerVal = (void *)(__externalBytesVal(arg));
} else {
if (arg == nil) {
__argValues[i].pointerVal = (void *)0;
} else {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
}
argValuePtr = &(__argValues[i].pointerVal);;
} else if (typeSymbol == @symbol(pointer)) {
commonPointerTypeArg: ;
thisType = __get_ffi_type_pointer();
if (arg == nil) {
__argValues[i].pointerVal = NULL;
} else if (__isExternalAddressLike(arg)) {
__argValues[i].pointerVal = (void *)(__externalAddressVal(arg));
} else if (__isExternalBytesLike(arg)) {
__argValues[i].pointerVal = (void *)(__externalBytesVal(arg));
} else if (__isByteArray(arg)) {
if (async == true) goto badArgForAsyncCall;
__argValues[i].pointerVal = (void *)(__byteArrayVal(arg));
} else if (__isFloatArray(arg)) {
if (async == true) goto badArgForAsyncCall;
__argValues[i].pointerVal = (void *)(__FloatArrayInstPtr(arg)->f_element);
} else if (__isDoubleArray(arg)) {
if (async == true) goto badArgForAsyncCall;
__argValues[i].pointerVal = (void *)(__DoubleArrayInstPtr(arg)->d_element);
} else if (__isString(arg) || __isSymbol(arg)) {
if (async == true) {
badArgForAsyncCall: ;
failureCode = @symbol(BadArgForAsyncCall);
goto getOutOfHere;
}
__argValues[i].pointerVal = (void *)(__stringVal(arg));
} else if (__isBytes(arg)) {
char *p = (char *)(__byteArrayVal(arg));
int nInstBytes;
OBJ cls;
if (async == true) goto badArgForAsyncCall;
cls = __qClass(arg);
nInstBytes = __OBJS2BYTES__(__intVal(__ClassInstPtr(cls)->c_ninstvars));
__argValues[i].pointerVal = p + nInstBytes;
} else {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
argValuePtr = &(__argValues[i].pointerVal);;
} else if (typeSymbol == @symbol(bool)) {
thisType = __get_ffi_type_uint();
if (arg == true) {
__argValues[i].iVal = 1;
} else if (arg == false) {
__argValues[i].iVal = 0;
} else if (__isSmallInteger(arg)) {
__argValues[i].iVal = __intVal(arg);
} else {
__argValues[i].iVal = __unsignedLongIntVal(arg);
if (__argValues[i].iVal == 0) {
failureCode = @symbol(InvalidArgument);
goto getOutOfHere;
}
}
argValuePtr = &(__argValues[i].iVal);
} else {
if (__isSymbol(typeSymbol)
&& ((argValueClass = __GLOBAL_GET(typeSymbol)) != nil)) {
if (! __isBehaviorLike(argValueClass)) {
failureCode = @symbol(NonBehaviorArgumentType);
goto getOutOfHere;
}
if (! __qIsSubclassOfExternalAddress(argValueClass)) {
failureCode = @symbol(NonExternalAddressArgumentType);
goto getOutOfHere;
}
goto commonPointerTypeArg; /* sorry */
} else {
failureCode = @symbol(UnknownArgumentType);
goto getOutOfHere;
}
}
__argTypes[i] = thisType;
__argValuePointers[i] = argValuePtr;
#ifdef VERBOSE
printf("arg%d: %x\n", i, __argValues[i].iVal);
#endif
}
failureInfo = nil;
__callType = FFI_DEFAULT_ABI;
#ifdef CALLTYPE_FFI_STDCALL
if (callTypeNumber == @global(CALLTYPE_API)) {
__callType = CALLTYPE_FFI_STDCALL;
}
#endif
#ifdef CALLTYPE_FFI_V8
if (callTypeNumber == @global(CALLTYPE_V8)) {
__callType = CALLTYPE_FFI_V8;
}
#endif
#ifdef CALLTYPE_FFI_V9
if (callTypeNumber == @global(CALLTYPE_V9)) {
__callType = CALLTYPE_FFI_V9;
}
#endif
#ifdef CALLTYPE_FFI_UNIX64
if (callTypeNumber == @global(CALLTYPE_UNIX64)) {
__callType = CALLTYPE_FFI_UNIX64;
}
#endif
if (ffi_prep_cif(&__cif, __callType, __numArgsIncludingThis, __returnType, __argTypesIncludingThis) != FFI_OK) {
failureCode = @symbol(FFIPrepareFailed);
goto getOutOfHere;
}
if (async == true) {
#ifdef VERBOSE
printf("async call 0x%x\n", codeAddress);
#endif
#ifdef WIN32
__STX_C_CALL4( "ffi_call", ffi_call, &__cif, codeAddress, __returnValuePointer, __argValuePointersIncludingThis);
#else
__BEGIN_INTERRUPTABLE__
ffi_call(&__cif, codeAddress, __returnValuePointer, __argValuePointersIncludingThis);
__END_INTERRUPTABLE__
#endif
} else {
if (unlimitedStack == true) {
#ifdef VERBOSE
printf("UNLIMITEDSTACKCALL call 0x%x\n", codeAddress);
#endif
#if 0
__UNLIMITEDSTACKCALL__(ffi_call, &__cif, codeAddress, __returnValuePointer, __argValuePointersIncludingThis);
#endif
} else {
#ifdef VERBOSE
printf("call 0x%x\n", codeAddress);
#endif
ffi_call(&__cif, codeAddress, __returnValuePointer, __argValuePointersIncludingThis);
}
}
#ifdef VERBOSE
printf("retval is %d (0x%x)\n", __returnValue.iVal, __returnValue.iVal);
#endif
if ((returnTypeSymbol == @symbol(sint))
|| (returnTypeSymbol == @symbol(sint8))
|| (returnTypeSymbol == @symbol(sint16))
|| (returnTypeSymbol == @symbol(sint32))) {
RETURN ( __MKINT(__returnValue.iVal) );
}
if ((returnTypeSymbol == @symbol(uint))
|| (returnTypeSymbol == @symbol(uint8))
|| (returnTypeSymbol == @symbol(uint16))
|| (returnTypeSymbol == @symbol(uint32))) {
RETURN ( __MKUINT(__returnValue.iVal) );
}
if (returnTypeSymbol == @symbol(bool)) {
RETURN ( __returnValue.iVal ? true : false );
}
if (returnTypeSymbol == @symbol(float)) {
RETURN ( __MKFLOAT(__returnValue.fVal ));
}
if (returnTypeSymbol == @symbol(double)) {
RETURN ( __MKFLOAT(__returnValue.dVal ));
}
if (returnTypeSymbol == @symbol(void)) {
RETURN ( nil );
}
if (returnTypeSymbol == @symbol(char)) {
RETURN ( __MKCHARACTER(__returnValue.iVal & 0xFF) );
}
if (returnTypeSymbol == @symbol(wchar)) {
RETURN ( __MKUCHARACTER(__returnValue.iVal & 0xFFFF) );
}
if (returnTypeSymbol == @symbol(handle)) {
returnValue = __MKEXTERNALADDRESS(__returnValue.pointerVal);
} else if (returnTypeSymbol == @symbol(pointer)) {
returnValue = __MKEXTERNALBYTES(__returnValue.pointerVal);
} else if (returnTypeSymbol == @symbol(charPointer)) {
returnValue = __MKSTRING(__returnValue.pointerVal);
} else if (returnTypeSymbol == @symbol(wcharPointer)) {
returnValue = __MKU16STRING(__returnValue.pointerVal);
} else {
failureCode = @symbol(UnknownReturnType2);
}
getOutOfHere: ;
#else /* no FFI support */
failureCode = @symbol(FFINotSupported);
#endif /* HAVE_FFI */
%}.
failureCode notNil ifTrue:[
self primitiveFailed.
^ nil
].
returnType isSymbol ifTrue:[
returnValueClass notNil ifTrue:[
self isConstReturnValue ifTrue:[
returnValue changeClassTo:returnValueClass.
^ returnValue
].
^ returnValueClass fromExternalAddress:returnValue.
].
] ifFalse:[
returnType isCPointer ifTrue:[
returnType baseType isCStruct ifTrue:[
stClass := Smalltalk classNamed:returnType baseType name.
stClass notNil ifTrue:[
self isConstReturnValue ifTrue:[
returnValue changeClassTo:returnValueClass.
^ returnValue
].
^ stClass fromExternalAddress:returnValue.
].
].
returnType baseType isCChar ifTrue:[
^ returnValue stringAt:1
].
].
].
^ returnValue
"Created: / 01-08-2006 / 13:56:23 / cg"
"Modified: / 16-04-2007 / 15:36:40 / cg"
! !
!ExternalLibraryFunction methodsFor:'testing'!
! !
!ExternalLibraryFunction class methodsFor:'documentation'!
version
^ '$Header: /cvs/stx/stx/libbasic/ExternalLibraryFunction.st,v 1.54 2007-04-16 13:35:43 cg Exp $'
! !
ExternalLibraryFunction initialize!